The study report worldwide Nanobots Market covers the market analysis for the regions - North America, Europe, Asia Pacific/ Southeast Asia and Row and country analysis of China, Japan, and India focusing on top manufacturers in world market and the market share they hold including their contribution to the market growth

Pune, India -- (SBWire) -- 12/01/2017 --Acknowledging its growing popularity and the market growth, Market Research Future, recently published a study report – The Global Nanobots Market. Which indicates that the Market is booming and estimated to gain further prominence over the forecast period. Further MRFR asserts that the Market will demonstrate a massive growth by 2023, phenomenally superseding its previous growth records in terms of value with a whooping CAGR during the anticipated period. The global Nanobots market is to perceive the heights of USD 100 Billion by 2023 with a CAGR of ~ 21% during the forecast period 2017-2023. In 2016, the market size of the Nanobots market was US$ 74 Billion.

Some of Key Players: Xidex Corp. (Texas), Zymergen Inc. (U.S), Synthace Limited (U.K), Ginkgo Bioworks (U.S)., Advanced Diamond Technologies (U.S), and Advanced Nano Products Co Limited (South Korea) are some of the prominent players at the forefront of competition in the Global Nanobots Market and are profiled in MRFR Analysis.

Nanobots Global Market - Overview

Nanobots are prevailing in healthcare and medicine sector, bringing some exciting possibilities which were earlier considered as part of SciFi. With the rise in robotic technology; Nanobots have become smarter than our current medical technology, allowing us to heal at a far faster rate and perhaps increase our immunity. Nanobots have the potential to completely revolutionise health and medicine whether painless surgeries, optimised drug delivery, or even wholesale construction of body parts. With each advancement, Nanobots market is expanding rapidly garnering more attention and market traction.

Accrediting the spurting leap the Nanobots Market has taken lately and the further heights the market is racing to achieve up to, the Market Research Future, has recently published a meticulous study report accentuating the market insights up till the year 2023 and letting out the potential strategies of industry players after a careful consideration of their past strategic moves. According to the MRFR's analysis; the global Nanobots Market is forecasted to demonstrate a colossal growth by 2023, registering a whooping double digit CAGR during the anticipated period (2017 – 2023).

Robotics is a technology utilized for creation of robots and Nanobots. Nanobots are utilized in different fields for various undertakings to be performed along in line with lessening human errors. The utilization of this this technology in healthcare is expanding from recent couple of years. Technological advancement in healthcare has unlimited opportunities helping patients to get treated with safe, reliable technology and advanced healthcare. Nanobots utilized in healthcare comprise of various types, each one performing specific function. The technology is getting to be plainly prevalent among healthcare experts on a large scale most of them applying it for understanding finding and treatment. Nano medicine is an advent technology in the field of pharmaceutical making treatment results reliable. Therefore, market of Nanobots is expanding with an increase in its application in healthcare. Acclimation of nanotechnology among the specialists, surgeons, medical caretakers and other healthcare staff will support the growth of Nanobots market. The restrictions in this market include cost of training the healthcare staff to use the technology for patients care.

In Cancer, at a cellular level, cancerous tissues are usually quite different from normal tissues. The immune system takes advantage of surface markers to destroy cancer cells; but this is not enough to keep us cancer-free. In Cancer treatment, Nanobots are proving to be so helpful offering several advantages. Firstly, they can physically enter cells and scan the chemicals inside. Secondly, they can have on board computers that allow them to do calculations not available to immune cells. Thirdly, nanobots can be programmed and deployed after a cancer is diagnosed, whereas the immune system is always guessing about whether a cancer exists. Nanobots can scan each of the body's cells for cancerous tendencies, and subject any suspicious cells to careful analysis; if a cancer is detected, they can wipe it out quickly, using more focused and vigorous tactics than the immune system is designed for.

Nanobots generally are most effective at fighting organisms that it can recognize on a molecular level. Some diseases, such as Ebola, progress too rapidly for the immune system to respond. Syphilis survives by being stealthy and by surrounding itself with the chemicals of the body to camouflage itself. Herpes splices itself into the genes of the body's cells, so the immune system cannot detect it and wipe it out. HIV directly attacks the immune system. Nanobots have several advantages over the immune system. They will not be susceptible to attack by natural pathogens. They will have computational resources unavailable to immune cells. They can be programmed to find and fight diseases they have never encountered (when a new disease shows up), as soon as it is analyzed everyone's nanobots can benefit. Likewise, the system can be activated based on external knowledge of the likelihood of a disease; the nanobots would not have to waste energy looking for malaria in winter.

Next emerging targets of Nanobots are breaking up stroke-causing blood clots and the precision delivery of drugs for reversing the effects of stroke. Scientists have been studying platelet-sized nanobots coated with a tissue plasminogen activator (tPA), one of the most effective clot-busting drugs known. These nanobots are fabricated as aggregates of multiple smaller nanoparticles (NPs). The microscale aggregates remain intact when flowing in blood under normal conditions, but break up into individual Nano scale components when exposed to the blocked artery. The result can be faster delivery of the drug, quicker clot-busting, and fewer side effects from the tPA such as bleeding or haemorrhaging, since less tPA is delivered to the non-clotting vessels in the body. Tests conducted four years ago on mice proved dramatically effective. These nanobots to treat stroke might only be two or three years away.

New breakthrough research from a team at Caltech has demonstrated the ability of a robot made of a single strand of DNA to explore a molecular surface, pick up targeted molecules, and move them to another designated location.

Well established players incorporate acquisition, collaboration, partnership, expansion, product & technology launch in order to gain competitive advantage in the already competitive market of Nanobots and to maintain their market position. High investments are being made by the key players of the market indicating the immense growth opportunities in the market. Which is likely to attract several entrants to the market which in turn will intensify the competition in the market further.

Industry/ Innovation/ Related News

September 2017 - Team Scientists at the University of Manchester (UK) developed the World's 1st Molecular Robot. This first ever molecular robot, and it has an arm which can manipulate individual molecules or move them in clusters. It is the same sort of process scientists use to make medicines and plastics from simple chemical building blocks. Then, once the Nanobots have been constructed, they are operated by scientists by adding chemical inputs which tell the robots what to do and when, just like a computer program.

September 2017 - French Synbio start-up - Eligo Bioscience announced that it has managed to raise $20 million funding to build biological Nanobots from Khosla Ventures and Seventure Partners.

Nanobots Market – Segmentations

Global Nanobots Market is segmented in to 3 Key dynamics for an easy grasp and enhanced understanding.

Globally, Nanobots market consists of four regions North America, Europe, Asia-Pacific and Middle East and Africa. North America is the largest market for Nanobots. The North American market for Nanobots is expected to grow at a CAGR of 12.2% which is expected to reach at US$ 73 billion from US$ 55 billion in 2016 by the end of the forecasted period. Awareness regarding use of Nanobots for surgical care and 'treatment of patients' factor drive this market in North America. Europe is the second-largest market for Nanobots. Whereas Asia Pacific is expected to be the fastest growing market for Nanobots market. India is expected to grow steadily in this market as implementation of this technology requires large amount of financial investment by the healthcare organizations and also training for the staff. Most of the hospitals mainly focus on providing primary healthcare to the patients. The market shows steady growth in Middle East and Africa.

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